Abstract
BackgroundRhipicephalus microplus is a hard tick that has a major impact on cattle health in tropical and subtropical regions because it feeds on cattle and is implicated in the transmission of pathogens that cause diseases such as bovine anaplasmosis and babesiosis. Presently, acaricides are used to control tick infestation but this is becoming increasingly less effective due to the emergence of tick strains that are resistant to one or more classes of acaricides. Anti-tick vaccines are a promising alternative to control tick infestation in cattle. The life-cycle and host preference of R. microplus, however, makes vaccine research in cattle costly and would therefore greatly benefit from an in vitro screening system.MethodsTo this aim, a stacked 24-well in vitro feeding system was designed in which the blood meal was administered in a chamber on top of the compartment containing the ticks, exploiting their anti-gravitational tendency. Both compartments were separated by a special feeding membrane, which was made by applying a silicone mixture to a gold beater’s skin (baudruche membrane) with a paint roller to create a slightly uneven surface of 17–40 μm variable thickness. To further stimulate feeding, the membrane was treated with bovine hair extract and the unit was placed at 37 °C with 90% RH and 5% CO2.ResultsUsing this set-up with Rhipicephalus australis (formerly Rhipicephalus microplus), a larval engorgement rate of up to 71% could be achieved. The larvae could successfully feed on blood, but also on serum. The latter allows easy screening of the effect of sera that are raised against tick proteins on feeding. As an example, serum from cattle that were vaccinated with the Bm86 midgut protein of R. microplus significantly reduced larval engorgement rates by 42%.ConclusionThe in vitro feeding system’s high throughput design and its ability to measure statistically significant anti-tick effects in sera from immunized cattle enables screening of multiple vaccine candidates in a cost-effective manner.
Highlights
Rhipicephalus microplus is a hard tick that has a major impact on cattle health in tropical and subtropical regions
Results showed that the engorgement rate after feeding for 48 h on bovine blood was statistically significant higher using membranes prepared with the paint roller (29.4% average engorgement) as compared to membranes prepared with the rubber sheet (13.6% average engorgement; (t(14) = 4.363, P = 0.0006 Fig. 3)
Results showed that the Results showed that the engorgement rate of larvae feeding on bovine serum was somewhat lower (59%) than that observed when larvae were fed on bovine blood (71%; Fig. 5)
Summary
Rhipicephalus microplus is a hard tick that has a major impact on cattle health in tropical and subtropical regions because it feeds on cattle and is implicated in the transmission of pathogens that cause diseases such as bovine anaplasmosis and babesiosis. Rhipicephalus microplus is a hard tick that has a major impact on cattle health in tropical and subtropical regions. This tick species can transmit a range of diseases, including bovine anaplasmosis and babesiosis. With the advent of recombinant protein techniques, single protein antigens could be evaluated for protective activity This led to the discovery of Bm86, a tick midgut antigen first described in 1989 [11]. More research is needed to improve anti-tick vaccines by additional and/or more efficacious antigens
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